The Importance Of Monoclonal Proteins Determination For The Correct Diagnosis Of Transthyretin Cardiac Amyloidosis By [Tc-99m]Tc-diphosphonates

EPS-066 Aim/Introduction: To analyze the influence of the determination of free monoclonal proteins in blood and urine in the final diagnosis of Transthyretin Cardiac Amyloidosis (TTRA). Materials and Methods: We have analyzed 200 [99mTc]Tc-diphosphonates scans: 192 performed on 190 patients under suspicion of TTRA and 7 patients with grade II-III radiotracer myocardial deposit as a casual finding (November/2013 - January/2020). Likewise, clinical and laboratory characteristics (heart failure, LVEF, proBNP levels, immunofixation in serum and/or urine for the detection of monoclonal chains and chronic renal failure) have been evaluated. A positive case has been considered for TTRAwt or senile (Score Perugini II-III scan, negative immunofixation in serum and/or urine, negative genetic study), positive case for hereditary TTRA (Score Perugini II-III scan, negative immunofixation and positive genetic study), positive case for secondary amyloidosis (positive immunofixation and presence of hematologic malignancy) and undetermined amyloidosis (immunofixation not performed or positive and absence of haematologic malignancies at follow-up). Results: 59 positive scans have been detected, 47 men (79’7%) and 12 women (20’3%). The mean age of the group of positives was 82’66 years, while that of the negatives was 72’15. The mean proBNP levels in the positives are 7561, compared to 5869 in the negative group. Immunofixation (serum and/or urine for detection of kappa or lambda monoclonal chains at 30 (50.8%) has been performed on these patients. Finally, 37.2% (22/59) resulted in ATTRwt, 3.4% (2/59) hereditary ATTR (genetic study: variant E54Q and mutation c.424> A (p.Va.122Ile) in exon 4 of TTR) and 1.7% (1/59) secondary amyloidosis. The remaining 34/59 (57.7%) cases were undetermined amyloidosis (6 positive immunofixation and 27 without monoclonal proteins determination). Conclusion: Determination of monoclonal bands in blood and urine is mandatory to correctly characterize cases of cardiac amyloidosis and, in presence of monoclonal bands, to assess the existence of underlying haematological malignancies

Impact Of Sentinel Lymph Node Biopsy In Breast Cancer Patients Treated With Neoadjuvant Chemotherapy

EPS 196 Aim/Introduction: To analyze how many of the patients undergoing neoadjuvant chemotherapy (NCT) may benefit from SLNB, as well as the impact on patient management, especially in those with early axillary involvement. Materials and Methods: We included patients with breast carcinoma candidates to NCT discussed at the Tumor Committee of our hospital (April/2017-August/2019). All of them were subjected to clinical assessment, ultrasound and, if appropriate, histological analysis, axillary pre and post- NCT. Sentinel lymph node detection was performed after periareolar injection of [99mTc]Tc-nanocoloid (74 MBq) the day before surgery. In some cases, blue dye was injected and/or a pre-NPC metal clip was placed in the affected node. Results: Sixty-two patients were included. NCT achieved a complete breast response in 12 patients, partial in 46 and non-response in 4. Initially, 31 patients were classified as N0 and 31 as N+ (28 N1 and 3 N2), achieving a complete axillary response in 58% of N+ (18). SLNB was performed in 49 patients (79%; 100% in N0 and 58% in N+ from baseline). The gamma detection rate of the sentinel lymph node was 91.8% (93.5% in N0 and 88.9% in N+). 28 lymphadenectomies were undergone (45.2%; 22.5% in N0 and 67.7% in N+), 11 due to positive SLNB (5 N0 and 6 N1), 13 owing to lack of axillary response and 4 caused by the non-localization of the sentinel lymph node. SLNB was performed in 58% of N+ patients, of which 44.4% were negative, avoiding lymphadenectomy. Metal clip and/or blue dye techniques were used in 31 cases (50%). Conclusion: SLNB is viable in a high percentage of patients with previous NCT, with a high detection rate, even in patients with early affected axilla, avoiding lymphadenectomy to patients who achieve a complete response of the axillary lymph node

Overview of recent TJ-II stellarator results

The main results obtained in the TJ-II stellarator in the last two years are reported. The most important topics investigated have been modelling and validation of impurity transport, validation of gyrokinetic simulations, turbulence characterisation, effect of magnetic configuration on transport, fuelling with pellet injection, fast particles and liquid metal plasma facing components. As regards impurity transport research, a number of working lines exploring several recently discovered effects have been developed: the effect of tangential drifts on stellarator neoclassical transport, the impurity flux driven by electric fields tangent to magnetic surfaces and attempts of experimental validation with Doppler reflectometry of the variation of the radial electric field on the flux surface. Concerning gyrokinetic simulations, two validation activities have been performed, the comparison with measurements of zonal flow relaxation in pellet-induced fast transients and the comparison with experimental poloidal variation of fluctuations amplitude. The impact of radial electric fields on turbulence spreading in the edge and scrape-off layer has been also experimentally characterized using a 2D Langmuir probe array. Another remarkable piece of work has been the investigation of the radial propagation of small temperature perturbations using transfer entropy. Research on the physics and modelling of plasma core fuelling with pellet and tracer-encapsulated solid-pellet injection has produced also relevant results. Neutral beam injection driven Alfvénic activity and its possible control by electron cyclotron current drive has been examined as well in TJ-II. Finally, recent results on alternative plasma facing components based on liquid metals are also presentedThis work has been carried out within the framework of the EUROfusion Consortium and has received funding from the Euratom research and training programme 2014–2018 under Grant Agreement No. 633053. It has been partially funded by the Ministerio de Ciencia, Inovación y Universidades of Spain under projects ENE2013-48109-P, ENE2015-70142-P and FIS2017-88892-P. It has also received funds from the Spanish Government via mobility grant PRX17/00425. The authors thankfully acknowledge the computer resources at MareNostrum and the technical support provided by the Barcelona S.C. It has been supported as well by The Science and Technology Center in Ukraine (STCU), Project P-507F